.TH std::isalpha 3 "2024.06.10" "http://cppreference.com" "C++ Standard Libary"
.SH NAME
std::isalpha \- std::isalpha

.SH Synopsis
   Defined in header <cctype>
   int isalpha( int ch );

   Checks if the given character is an alphabetic character as classified by the
   currently installed C locale. In the default locale, the following characters are
   alphabetic:

     * uppercase letters ABCDEFGHIJKLMNOPQRSTUVWXYZ
     * lowercase letters abcdefghijklmnopqrstuvwxyz

   In locales other than "C", an alphabetic character is a character for which
   std::isupper() or std::islower() returns non-zero or any other character considered
   alphabetic by the locale. In any case, std::iscntrl(), std::isdigit(),
   std::ispunct() and std::isspace() will return zero for this character.

   The behavior is undefined if the value of ch is not representable as unsigned char
   and is not equal to EOF.

.SH Parameters

   ch - character to classify

.SH Return value

   Non-zero value if the character is an alphabetic character, zero otherwise.

.SH Notes

   Like all other functions from <cctype>, the behavior of std::isalpha is undefined if
   the argument's value is neither representable as unsigned char nor equal to EOF. To
   use these functions safely with plain chars (or signed chars), the argument should
   first be converted to unsigned char:

 bool my_isalpha(char ch)
 {
     return std::isalpha(static_cast<unsigned char>(ch));
 }

   Similarly, they should not be directly used with standard algorithms when the
   iterator's value type is char or signed char. Instead, convert the value to unsigned
   char first:

 int count_alphas(const std::string& s)
 {
     return std::count_if(s.begin(), s.end(),
                       // static_cast<int(*)(int)>(std::isalpha)         // wrong
                       // [](int c){ return std::isalpha(c); }           // wrong
                       // [](char c){ return std::isalpha(c); }          // wrong
                          [](unsigned char c){ return std::isalpha(c); } // correct
                         );
 }

.SH Example

   Demonstrates the use of std::isalpha with different locales (OS-specific).


// Run this code

 #include <cctype>
 #include <clocale>
 #include <iostream>

 int main()
 {
     unsigned char c = '\\xdf'; // German letter ß in ISO-8859-1

     std::cout << "isalpha(\\'\\\\xdf\\', default C locale) returned "
               << std::boolalpha << !!std::isalpha(c) << '\\n';

     std::setlocale(LC_ALL, "de_DE.iso88591");
     std::cout << "isalpha(\\'\\\\xdf\\', ISO-8859-1 locale) returned "
               << static_cast<bool>(std::isalpha(c)) << '\\n';

 }

.SH Possible output:

 isalpha('\\xdf', default C locale) returned false
 isalpha('\\xdf', ISO-8859-1 locale) returned true

.SH See also

   isalpha(std::locale) checks if a character is classified as alphabetic by a locale
                        \fI(function template)\fP
   iswalpha             checks if a wide character is alphabetic
                        \fI(function)\fP
   C documentation for
   isalpha

        ASCII values            characters    iscntrl  isprint  isspace  isblank  isgraph  ispunct  isalnum  isalpha  isupper  islower  isdigit  isxdigit
decimal hexadecimal   octal                   iswcntrl iswprint iswspace iswblank iswgraph iswpunct iswalnum iswalpha iswupper iswlower iswdigit iswxdigit
0–8     \\x0–\\x8     \\0–\\10    control codes   ≠0       0        0        0        0        0        0        0        0        0        0        0
                              (NUL, etc.)
9       \\x9         \\11       tab (\\t)        ≠0       0        ≠0       ≠0       0        0        0        0        0        0        0        0
                              whitespaces
10–13   \\xA–\\xD     \\12–\\15   (\\n, \\v, \\f,    ≠0       0        ≠0       0        0        0        0        0        0        0        0        0
                              \\r)
14–31   \\xE–\\x1F    \\16–\\37   control codes   ≠0       0        0        0        0        0        0        0        0        0        0        0
32      \\x20        \\40       space           0        ≠0       ≠0       ≠0       0        0        0        0        0        0        0        0
33–47   \\x21–\\x2F   \\41–\\57   !"#$%&'()*+,-./ 0        ≠0       0        0        ≠0       ≠0       0        0        0        0        0        0
48–57   \\x30–\\x39   \\60–\\71   0123456789      0        ≠0       0        0        ≠0       0        ≠0       0        0        0        ≠0       ≠0
58–64   \\x3A–\\x40   \\72–\\100  :;<=>?@         0        ≠0       0        0        ≠0       ≠0       0        0        0        0        0        0
65–70   \\x41–\\x46   \\101–\\106 ABCDEF          0        ≠0       0        0        ≠0       0        ≠0       ≠0       ≠0       0        0        ≠0
71–90   \\x47–\\x5A   \\107–\\132 GHIJKLMNOP      0        ≠0       0        0        ≠0       0        ≠0       ≠0       ≠0       0        0        0
                              QRSTUVWXYZ
91–96   \\x5B–\\x60   \\133–\\140 [\\]^_`          0        ≠0       0        0        ≠0       ≠0       0        0        0        0        0        0
97–102  \\x61–\\x66   \\141–\\146 abcdef          0        ≠0       0        0        ≠0       0        ≠0       ≠0       0        ≠0       0        ≠0
103–122 \\x67–\\x7A   \\147–\\172 ghijklmnop      0        ≠0       0        0        ≠0       0        ≠0       ≠0       0        ≠0       0        0
                              qrstuvwxyz
123–126 \\x7B–\\x7E   \\172–\\176 {|}~            0        ≠0       0        0        ≠0       ≠0       0        0        0        0        0        0
127     \\x7F        \\177      backspace       ≠0       0        0        0        0        0        0        0        0        0        0        0
                              character (DEL)
